CN110896200A - Device for controlling center distance and axis deviation of electric wire pipe and operation method - Google Patents

Abstract

The invention relates to an electric line pipe center distance axis deviation control device and an operation method, wherein the device comprises a fixed support, two steel plates, a first row of equidistant coaxial steel pipe groups and a second row of equidistant coaxial steel pipe groups; the fixed bolster is a rectangle space frame, and the tow sides of every steel sheet are equipped with the recess respectively, and in two steel sheets located rectangle space frame one on the other, be equipped with the equidistance coaxial steel nest of tubes of second row in at least one recess of upper portion steel sheet, be equipped with the equidistance coaxial steel nest of tubes of first row in at least one recess of lower part steel sheet, the perpendicular direction central line of the equidistance coaxial steel nest of tubes of first row, second row is on same axis. The invention has better protection effect on the end of the wire pipe; the central position of the end of the exposed wire pipe is fixed, so that the key effect is achieved.

Description

Device for controlling center distance and axis deviation of electric wire pipe and operation method

Technical Field

The invention relates to an electric wire pipe center distance axis deviation control device and an operation method.

Background

At the present stage, the on-site line pipe finished product of the building construction project protects each house, and the implementation measures have great difference, but the on-site implementation measures can really play a good role and are targets which are constantly explored by each house; because concrete major structure spool is in pre-buried construction, the installation of pre-buried galvanized steel pipe kneck pullover is difficult to handle closely, in case the spool of installation completion has under the exogenic action, and the anticipated reservation end receives the exogenic influence very easily and makes the reservation length of the spool that exposes and the central point between each pre-buried intertube to take place the skew, influences the partial finished product impression that exposes, has also increased the construction degree of difficulty that the later stage was taken over.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a device for controlling the center distance and the axis deviation of an electrical line pipe and an operation method thereof, and solves the problems that the exposed end of an embedded line pipe after construction is cast deviates and is damaged after the concrete is cast due to the fluidity of the concrete and the influence of external force during the concrete casting, and the subsequent processes of the line pipe and a distribution box are influenced.

In order to solve the technical problem, the invention is realized as follows:

the utility model provides an electric spool centre-to-centre spacing axis deviation controlling means which characterized in that: the steel plate comprises a fixed support, two steel plates, a first row of equidistant coaxial steel tube groups and a second row of equidistant coaxial steel tube groups; the fixed bolster is a rectangle space frame, the tow sides of every steel sheet are equipped with the recess respectively, and two steel sheets are located the rectangle space frame one on the other, be equipped with the equidistance coaxial steel nest of tubes of second row in at least one recess of upper portion steel sheet, be equipped with the equidistance coaxial steel nest of tubes of first row in at least one recess of lower part steel sheet, the vertical direction central line of the equidistance coaxial steel nest of tubes of first row equidistance coaxial steel nest of tubes, second row equidistance coaxial steel nest of tubes is on same axis.

2. The electrical conduit center-to-axis deviation control device according to claim 1, characterized in that: and the top of the second row of equidistant coaxial steel pipe groups is sealed.

3. The electrical conduit center-to-axis deviation control device according to claim 1, characterized in that: and the diameter of each steel pipe hole in the second row of equidistant coaxial steel pipe groups is 1-2mm smaller than that of the first row of equidistant coaxial steel pipe groups.

4. The electrical conduit center-to-axis deviation control device according to claim 1, characterized in that: the groove is a trapezoidal groove.

5. The method of operating an electrical conduit center-to-axis deviation control apparatus according to claim 1, characterized by comprising the steps of:

the method comprises the following steps: the position of the wire pipe is determined, and the fixing support and the steel bar support are reliably fixed;

step two: manufacturing a first row of equidistant coaxial steel pipe groups and a second row of equidistant coaxial steel pipe groups according to the requirements of an on-site spool;

step three: fixing and adjusting the two steel plates;

step four: the fixed steel plates are inserted into the first row of equidistant coaxial steel tube groups and the second row of equidistant coaxial steel tube groups;

step five: inserting the embedded line pipe;

step six: the bottom of the line pipe is fixed with the fixing support through a binding wire.

The invention has the beneficial effects that: the on-site preparation is convenient and fast to obtain materials, and the processing construction method is simple; the steel plate is fixed, the repeated utilization rate of the steel pipe group is high, and after the steel plate is used, the material cost and the labor cost can be saved; the wire pipe end is well protected; the central position of the end of the exposed wire pipe is fixed, so that the key effect is achieved.

Drawings

The invention is described in further detail below with reference to the following figures and embodiments:

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic plan view.

Fig. 3 is an elevation view of the fixed steel plate.

Fig. 4 is a sectional view of the fixed steel plate.

Fig. 5 is a schematic view of a first row of coaxial equidistant steel tube sets.

Detailed Description

As shown in fig. 1-5: a device for controlling the center distance and the axis deviation of an electric line pipe comprises a fixed support 1, two steel plates 2, a first row of equidistant coaxial steel pipe groups 3 and a second row of equidistant coaxial steel pipe groups 4; the fixed bolster is a rectangle space frame, the tow sides of every steel sheet are equipped with the recess respectively, and two steel sheets are located the rectangle space frame one on the other, be equipped with the equidistance coaxial steel nest of tubes of second row in at least one recess of upper portion steel sheet, be equipped with the equidistance coaxial steel nest of tubes of first row in at least one recess of lower part steel sheet, the vertical direction central line of the equidistance coaxial steel nest of tubes of first row equidistance coaxial steel nest of tubes, second row equidistance coaxial steel nest of tubes is on same axis.

Further, the top of the second row of equidistant coaxial steel tube groups is sealed.

Furthermore, the diameter of each steel pipe hole in the second row of equidistant coaxial steel pipe groups is 1-2mm smaller than that of the first row of equidistant coaxial steel pipe groups.

Further, the groove is a trapezoidal groove.

The operation method of the electric conduit center-to-axis deviation control device comprises the following steps:

the method comprises the following steps: the position of the wire pipe is determined, and the fixing support and the steel bar support are reliably fixed;

step two: manufacturing a first row of equidistant coaxial steel pipe groups and a second row of equidistant coaxial steel pipe groups according to the requirements of an on-site spool;

step three: fixing and adjusting the two steel plates;

step four: the fixed steel plates are inserted into the first row of equidistant coaxial steel tube groups and the second row of equidistant coaxial steel tube groups;

step five: inserting the embedded line pipe;

step six: the bottom of the line pipe is fixed with the fixing support through a binding wire.

On one hand, the invention realizes the reliable fixation of the embedded line pipe through the reliable fixation of the control device and the template (the fixation method is that the fixation bracket of the control device is bound with the steel bar, and the fixation bracket can also be connected with the electric welding), the first row of equidistant coaxial steel pipe groups preliminarily controls the center distance of the line pipe, the second row of equidistant coaxial steel pipe groups carries out the second adjustment on the center group of the line pipe (the top of the second row of equidistant coaxial steel pipe groups is sealed, the diameter of each steel pipe hole is 1-2mm smaller than that of the steel pipe hole of the first row), the vertical direction center lines of the first and second rows of steel pipe groups are on the same axis, the steel pipe groups are manufactured on site according to the actual situation of the reserved space of the on-site line pipe (only the steel bar and the galvanized steel pipe are needed), the trapezoidal clamping grooves are arranged at the center positions of two sides of, simultaneously to a great extent realize the fixed to the spool, effectually avoid the nonconformity of pre-buried size, when improving the whole impression of finished product, also further improve the construction quality of pipeline reservation end, avoided the problem that the construction degree of difficulty that later stage spool off normal caused increases or construction cost increases. On the other hand, the control device is used for protecting the exposed short end outside the line pipe to a great extent, but the reserved size of the exposed end of the on-site line pipe must be enhanced when the control device plays the advantages of the control device. The effect of the steel nest of tubes of second row is the central point position of adjustment shaping spool on the one hand, and on the other hand effect carries out absolute protection to the end, and mortar gets into when avoiding taking place the end damage or later stage and causes the stifled pipe condition.

Claims (5)

1. The utility model provides an electric spool centre-to-centre spacing axis deviation controlling means which characterized in that: the steel plate comprises a fixed support, two steel plates, a first row of equidistant coaxial steel tube groups and a second row of equidistant coaxial steel tube groups; the fixed bolster is a rectangle space frame, the tow sides of every steel sheet are equipped with the recess respectively, and two steel sheets are located the rectangle space frame one on the other, be equipped with the equidistance coaxial steel nest of tubes of second row in at least one recess of upper portion steel sheet, be equipped with the equidistance coaxial steel nest of tubes of first row in at least one recess of lower part steel sheet, the vertical direction central line of the equidistance coaxial steel nest of tubes of first row equidistance coaxial steel nest of tubes, second row equidistance coaxial steel nest of tubes is on same axis.

2. The electrical conduit center-to-axis deviation control device according to claim 1, characterized in that: and the top of the second row of equidistant coaxial steel pipe groups is sealed.

3. The electrical conduit center-to-axis deviation control device according to claim 1, characterized in that: and the diameter of each steel pipe hole in the second row of equidistant coaxial steel pipe groups is 1-2mm smaller than that of the first row of equidistant coaxial steel pipe groups.

4. The electrical conduit center-to-axis deviation control device according to claim 1, characterized in that: the groove is a trapezoidal groove.

5. The method of operating an electrical conduit center-to-axis deviation control apparatus according to claim 1, characterized by comprising the steps of:

the method comprises the following steps: the position of the wire pipe is determined, and the fixing support and the steel bar support are reliably fixed;

step two: manufacturing a first row of equidistant coaxial steel pipe groups and a second row of equidistant coaxial steel pipe groups according to the requirements of an on-site spool;

step three: fixing and adjusting the two steel plates;

step four: the fixed steel plates are inserted into the first row of equidistant coaxial steel tube groups and the second row of equidistant coaxial steel tube groups;

step five: inserting the embedded line pipe;

step six: the bottom of the line pipe is fixed with the fixing support through a binding wire.

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